Latest Articles for Experimental Research

Research reveals insights into exciton-polariton condensates and their unique properties.

This article explores how quantum walks behave under different measurement protocols.

Examining how magnetic fields affect resistance in certain materials.

A study examines diboson polarization based on energy levels using ATLAS detector data.

Examining lifelong reinforcement learning with a focus on one-percent tuning methodology.

Moire materials reveal unique quantum properties, expanding the horizons of modern physics.

Research reveals complex interactions of bosons in optical lattices.

Recent findings challenge current particle physics predictions and hint at new phenomena.

Research focuses on improving secure key sharing methods using quantum physics.

New insights into particle rearrangement in dense colloidal systems.

Study confirms key principles of lepton flavor universality through Z boson decays.

This research evaluates single top quark and antiquark production rates from LHC data.

A look into double-mixing CP violation and its implications for matter-antimatter asymmetry.

Research reveals complex transitions between FQAH and charge density wave states.

Recent findings on charmonium states raise important questions in particle physics.

Researchers study fluctuations in particle production during nuclear collisions to understand fundamental forces.

Research reveals how light nuclei form in extreme nuclear environments during heavy-ion collisions.

PandaX-4T aims to deepen our knowledge of dark matter through advanced detection techniques.

Exploring the role of randomized measurements in advancing quantum technologies.

Delve into the essential theory of how quarks and gluons interact.

Investigating meson production through high-energy electron collisions with nucleons.

Twisted bilayer WSe shows potential for superconductivity and unique electronic properties.

Twisting sheets reveals complex patterns and material behavior.

New findings shed light on kaon pair behavior during particle decay.

Vortex states offer fresh insights into particle interactions and proton behavior.

A tutorial for advanced students on analyzing LHC particle physics data.

A fresh approach to understanding energy and momentum in dielectric materials.

This study investigates how liquids respond to sudden movements and pressure changes.

Research reveals potential pathways for understanding new physics through cLFV.

Research improves photon extraction, enhancing quantum computing and communication applications.

Research reveals surprising spin behaviors in CoNbO near quantum critical points.

New experiments aim to reveal the secrets of dark matter and dark energy.

A look into the fascinating characteristics of alkali superoxides and their behavior.

A study on how dipole operator interactions behave under flavor alignment in particle physics.

Exploring a new method for equitable resource allocation using karma principles.

Scientists measure vector boson production in high-energy proton collisions at LHC.

Research examines potential changes in particle types and implications for physics.

A new framework enhances model-based reinforcement learning with adaptive control for better decision-making.

Recent findings in particle decays hint at the existence of unseen particles.

Researchers study how atomic groups behave under light influence.